Magnesium alloy compound type thermal metal material

1. A magnesium alloy compound thermal metal material comprising: a heat dissipation surface layer formed of a magnesium alloy; a contact surface layer formed of a thermal conductivity metal alloy prepared from a material selected from a group consisting of gold, platinum, silver, and copper, said contact surface layer having a depth thickness forced into said heat dissipation surface layer by stamping-forging; and a fusion layer joined between said heat dissipation surface layer and said contact surface layer, said fusion layer being an eutectic structure formed of said heat dissipation surface layer and said contact surface layer under the application of a high temperature and a high pressure; such that the thermal conductivity metal alloy of said contact surface layer absorbs heat energy quickly from a heat source and transfers absorbed heat energy to said heat dissipation surface layer for quick dissipation; the internal molecules of the product are joined tightly together subject to the applied pressure, and the surface of the product allows for electroplating.

2. The magnesium alloy compound thermal metal material as claimed in claim 1 , wherein the depth thickness of said contact surface layer is within 0.5˜10 mm.

3. The magnesium alloy compound thermal metal material as claimed in claim 1 , wherein said contact surface layer is formed of copper alloy; the copper alloy of said contact surface layer is heated to 200˜350° C. and the magnesium alloy of said heat dissipation surface layer is heated to 200˜800° C. when said contact surface layer has been forced into said heat dissipation surface layer to form said eutectic structure of said fusion layer between said contact surface layer and said heat dissipation surface layer for enabling said eutectic structure of said fusion layer to exchange heat between said contact surface layer and said heat dissipation surface layer.

4. The magnesium alloy compound thermal metal material as claimed in claim 1 , wherein said heat dissipation surface layer has an outer surface thereof covered with an electroplate coating.

5. A magnesium alloy compound thermal metal material comprising: a heat dissipation surface layer formed of a magnesium alloy; a contact surface layer formed of a thermal conductivity metal alloy prepared from a material selected from a group consisting of gold, platinum, silver, and copper, and bonded to said heat dissipation surface layer by calendering; and a fusion layer joined between said heat dissipation surface layer and said contact surface layer, said fusion layer being an eutectic structure formed of said heat dissipation surface layer and said contact surface layer under the application of a high temperature and a high pressure; such that the thermal conductivity metal alloy of said contact surface layer absorbs heat energy quickly from a heat source and transfers absorbed heat energy to said heat dissipation surface layer for quick dissipation; the internal molecules of the product are joined tightly together subject to the applied pressure, and the surface of the product allows for electroplating.

6. The magnesium alloy compound thermal metal material as claimed in claim 5 , wherein said contact surface layer is formed of copper alloy; the copper alloy of said contact surface layer is heated to 200˜350° C. and the magnesium alloy of said heat dissipation surface layer is heated to 200˜800° C. when said contact surface layer has been forced into said heat dissipation surface layer to form said eutectic structure of said fusion layer between said contact surface layer and said heat dissipation surface layer for enabling said eutectic structure of said fusion layer to exchange heat between said contact surface layer and said heat dissipation surface layer.

7. The magnesium alloy compound thermal metal material as claimed in claim 5 , wherein said heat dissipation surface layer has an outer surface thereof covered with an electroplate coating.